Algebra I–Part 1

Table of Contents

Unit 1: Variables and Numeric Relationships 1

Unit 2: Measurement 14

Unit 3: Solving Equations and Real-life Graphs 30

Unit 4: Linear Equations and Graphing 39

Unit 5: Graphing and Writing Equations of Lines 50

Unit 6: Inequalities and Absolute Values in One Variable 57

Unit 7: Systems of Equations and Inequalities 63

Unit 8: Solving Using Matrices 71

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Louisiana Comprehensive Curriculum, Revised 2008

Course Introduction

The Louisiana Department of Education issued the Comprehensive Curriculum in 2005. The curriculum has been revised based on teacher feedback, an external review by a team of content experts from outside the state, and input from course writers. As in the first edition, the Louisiana Comprehensive Curriculum, revised 2008 is aligned with state content standards, as defined by Grade-Level Expectations (GLEs), and organized into coherent, time-bound units with sample activities and classroom assessments to guide teaching and learning. The order of the units ensures that all GLEs to be tested are addressed prior to the administration of iLEAP assessments.

District Implementation Guidelines

Local districts are responsible for implementation and monitoring of the Louisiana Comprehensive Curriculum and have been delegated the responsibility to decide if

·  units are to be taught in the order presented

·  substitutions of equivalent activities are allowed

·  GLES can be adequately addressed using fewer activities than presented

·  permitted changes are to be made at the district, school, or teacher level

Districts have been requested to inform teachers of decisions made.

Implementation of Activities in the Classroom

Incorporation of activities into lesson plans is critical to the successful implementation of the Louisiana Comprehensive Curriculum. Lesson plans should be designed to introduce students to one or more of the activities, to provide background information and follow-up, and to prepare students for success in mastering the Grade-Level Expectations associated with the activities. Lesson plans should address individual needs of students and should include processes for re-teaching concepts or skills for students who need additional instruction. Appropriate accommodations must be made for students with disabilities.

New Features

Content Area Literacy Strategies are an integral part of approximately one-third of the activities. Strategy names are italicized. The link (view literacy strategy descriptions) opens a document containing detailed descriptions and examples of the literacy strategies. This document can also be accessed directly at http://www.louisianaschools.net/lde/uploads/11056.doc.

A Materials List is provided for each activity and Blackline Masters (BLMs) are provided to assist in the delivery of activities or to assess student learning. A separate Blackline Master document is provided for each course.

The Access Guide to the Comprehensive Curriculum is an online database of suggested strategies, accommodations, assistive technology, and assessment options that may provide greater access to the curriculum activities. The Access Guide will be piloted during the 2008-2009 school year in Grades 4 and 8, with other grades to be added over time. Click on the Access Guide icon found on the first page of each unit or by going directly to the url http://mconn.doe.state.la.us/accessguide/default.aspx.

Louisiana Comprehensive Curriculum, Revised 2008

Algebra I–Part 1

Unit 1: Variables and Numeric Relationships

Time Frame: Approximately seven weeks

Unit Description

This introductory unit consists of a thorough review of math topics from earlier grades. Topics include work with subsets of the set of real numbers including how to graph and perform operations on them; use of scientific notation; simplifying and estimating square roots; evaluating expressions; and representing real-life situations with numerical models and graphs. Also included in this unit is a review of geometric formulas.

Student Understandings

Students can use the order of operations and scientific notation, and work with rational and irrational numbers. Students write, evaluate, and simplify algebraic expressions in real-life situations and in mathematical formulas. They also recognize simple patterns in graphical, numerical, tabular and verbal forms.

Guiding Questions

1.  Can students use order of operations and the basic properties (i.e., associative, commutative, and distributive) when performing computations and collecting like terms in expressions?

2.  Can students correctly evaluate numeric and algebraic expressions involving rational numbers?

3.  Can students use and apply scientific notation in representing numbers and solving problems?

4.  Can students recognize functions in graphical, numerical, tabular, and verbal forms?

Unit 1 Grade-Level Expectations (GLEs)

GLE# / GLE Text and Benchmarks /
Number and Number Relations
1. / Identify and describe differences among natural numbers, whole numbers, integers, rational numbers, and irrational numbers (N-1-H) (N-2-H) (N-3-H)
2. / Evaluate and write numerical expressions involving integer exponents (N-2-H)
3. / Apply scientific notation to perform computations, solve problems, and write representations of numbers (N-2-H)
4. / Distinguish between an exact and an approximate answer, and recognize errors introduced by the use of approximate numbers with technology (N-3-H) (N-4-H) (N-7-H)
5. / Demonstrate computational fluency with all rational numbers (e.g., estimation, mental math, technology, paper/pencil) (N-5-H)
6. / Simplify and perform basic operations on numerical expressions involving radicals (e.g., ) (N-5-H)
Algebra
8. / Use order of operations to simplify or rewrite variable expressions (A-1-H) (A-2-H)
9. / Model real-life situations using linear expressions, equations, and inequalities (A-1-H) (D-2-H) (P-5-H)
12. / Evaluate polynomial expressions for given values of the variable (A-2-H)
Data Analysis, Probability, and Discrete Math
15. / Translate among tabular, graphical, and algebraic representations of functions and real-life situations (A-3-H) (P-1-H) (P-2-H)
34. / Follow and interpret processes expressed in flow charts (D-8-H)

Sample Activities

Activity 1: Relationships in the Real Number System (GLE: 1)

Materials List: paper, pencil, Where do I Belong? BLM.

Review the real number system and discuss with students what the natural numbers, whole numbers, integers, rational and irrational numbers are. Draw a Venn diagram showing how the various sets of numbers within the real number system are related. After fully reviewing the real number system, make copies of the modified word grid (view literacy strategy descriptions) activity, Where do I Belong? BLM. A word grid is a learning strategy which allows the user to relate characteristic features among terms or items and helps the learner to compare and contrast similarities and differences between the items in a list. Let students get in pairs to complete this activity, and then discuss the results as a class.

Activity 2: Understanding Rational and Irrational Numbers (GLEs: 1, 4)

Materials List: paper, pencil, scientific calculators, four-function calculators (variety), Internet (optional)

Using calculators, let students explore the difference between rational and irrational numbers. To begin, have students input several rational numbers using the division key, and discuss why some rational numbers are finite (e.g., , , and), while other rational numbers have non-terminating decimals that repeat (e.g., and ). Ask students to investigate which fractions will terminate and which will repeat by looking for a pattern. Students should see that fractions that terminate have denominators with factors of 2 and 5 only. Any rational number having factors other than 2 or 5 will result in non-terminating repeating decimal numbers.

Next, have students input several irrational numbers and let them see that although the numbers appear to terminate on the calculator, the calculator is actually rounding off the last digit. Students need to understand that irrational numbers don’t terminate or repeat when converted to a decimal. There are some computer sites that show irrational values to many places. The website http://www.mathsisfun.com/irrational-numbers.html is one such site. It also explains in detail what an irrational number is along with values for pi and e and other “famous” irrational numbers.

Finally, discuss how different calculators handle numbers that do not terminate.

The goal here is to help students to see that calculators can sometimes introduce calculation errors and how to handle this situation as it arises. For example, show students what error results from calculating with rounded values (i.e., multiply a number by 0.67 and then multiply it by 2/3). Present other examples of calculation error associated with rounding using calculators. Emphasize that in most cases, it is better not to round until the last step.

Activity 3: Estimating the Value of Square Roots (GLEs: 1, 4)

Materials List: paper, pencil, scientific calculators

Discuss with students how to estimate the value of irrational numbers involving square roots. Have the students determine which two whole numbers a particular square root would fall between. For example, if students know the square root of 49 is 7 and the square root of 64 is 8, then the square root of 51 would be between these two values (it would actually be closer in value to 7 than to 8, so an even better estimate might be 7.1). Once a thorough discussion takes place about estimation techniques, provide students with an opportunity to use their estimation skills by providing students with 10 square roots which are irrational and have them determine their approximate values. After students obtain their approximate values, have students share their reasoning with a partner first and then explain their reasoning to the class. Have students check their estimates with a calculator using the square root key.

Activity 4: Naming Numbers on a Number Line (GLE: 1)

Materials List: paper, pencil

As a class (with the teacher modeling and students working at their desks individually), construct a number line showing the integers from –4 to +4. Teacher and students should then identify and label the halfway points between each pair of integers (e.g., –3,
–2). Next, identify and label where the following numbers would be placed on the number line they created: –, –, –, , , . First allow students to place the numbers on their own number lines. When students have completed their work, call individual students to the front of the room to place a number on a class number line and explain why he/she chose this particular position. Discuss the difference between an exact answer (such as the square root of 3) and an approximate answer (such as 1.73). Use this activity to reinforce the previous work done by having students name and identify the natural numbers, whole numbers, integers, rational, and irrational numbers. Use this opportunity to emphasize to students that a number line is made up of an infinite number of points. Many students think a number line consists only of integers. We want students to understand that between any two integers are “infinitely many” points. For example, between 2 and 3, there are points such as 2.000001, 2.0000002, and so on.

Activity 5: Many Ways to Solve a Problem (GLEs: 4, 5)

Materials List: paper, pencil, scientific calculators, teacher-made worksheets on operations with rational numbers, What Method Should I Use? BLM

Review paper and pencil operations with rational numbers (addition, subtraction, multiplication, and division) and include in the discussion how the calculations could be done using calculators. Also use this opportunity to discuss estimation and mental strategies with respect to operations with rational numbers. This work should be a review for students from 7th and 8th grades. Provide opportunities for students to develop proficiency in solving problems involving operations with rational numbers.

Afterwards, make copies of and have students work in pairs on What Method Should I Use? BLM. In this activity, students are given a problem in which they have to decide whether they should solve a problem using estimation, mental math, paper/pencil, or calculator. Students write their decisions in the math learning log (view literacy strategy descriptions) section of the BLM to defend the choice made. Learning logs are a literacy strategy designed to force students to put into words what they know or do not know. It offers students the opportunity to reflect on their understanding which can lead to further study and alternative learning paths. Learning logs are generally kept in a journal type of book, but because of the nature of Activity 5, the log is integrated into the BLM. Throughout the year, have students maintain a learning log in a central location, such as in a special place in a notebook or binder, in which to record new learning experiences. For Activity 5, have the students tape or paste the BLM into the log when completed.

After students have written their math learning logs, they should exchange math logs with another student to analyze one another’s work and provide feedback to another student. Once this has taken place, the teacher should lead a discussion of the worksheet and discuss what students believe to be the best approach to each of the problems.

Activity 6: Using Exponents in Prime Factorization (GLE: 2)

Materials List: paper, pencil, teacher-made worksheet on using exponents or problems from a math textbook

Review the prime factorization process with whole numbers, and include in the discussion how exponents can be used to rewrite a particular prime factorization. For example, ask students to rewrite 136 as the product of primes. This should be a review for students from middle school work. Allow students the opportunity to prime factor different numbers using factor trees, and then have them write the numbers in factored form using exponents.

Include in the discussion the use of negative exponents (i.e., explain how ½ could be written as or 1/16 could be written as 2). Since this is the first time that students have exposure to negative exponents, develop the concept in the following way: Have students investigate a pattern starting with 22=4; 21=2; 20=1; 2-1= ?. Since each value is the previous value, then 2-1 would need to be . Continue the process by using exponents of -2, -3, and so on, until the idea of using negative exponents is developed thoroughly. Once this is done, introduce the “rule” associated with negative exponents as is typically done in an algebra class. The goal of this activity is to help students to become comfortable with use of integer exponents. Teacher should provide a worksheet for practice as necessary for their particular class or use the math textbook as a resource for additional work on this topic.